OCC PFC变换器的电流相位滞后问题及补偿方案

P. Mao, Shaojun Xie, A. Xu, Zegang Xu
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引用次数: 4

摘要

构建了一种新的单周期控制(OCC)PFC变换器等效输入电路,在此基础上分析了开关频率与线频之比较低时电流相位滞后问题,提出了一种通过控制开关两端电压的电流相位滞后补偿方案,以减小线电流相对于线电压的相位滞后。介绍了数字控制补偿方案的实现方法,并给出了设计实例。通过频域分析验证了该补偿方案的稳定性。所构建的等效输入电路能更准确地反映OCC PFC变换器的输入特性,所提出的补偿方案能减小电流相位滞后,提高位移功率因数,实验结果验证了这一点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Current phase lag issue and the compensation scheme for OCC PFC converter
A new equivalent input circuit of one-cycle-controlled (OCC)PFC converter is built, based on which, the current phase lag issue especially outstanding at low ratio of switching frequency to line frequency is analyzed, and a novel current phase lag compensation scheme by controlling the voltage across the switch is proposed to reduce the phase lag of line current relative to line voltage. Implementation method of the compensation scheme with digital control is introduced, and a design example is given. The stability of the system using the compensation scheme is verified by frequency-domain analysis. The newly built equivalent input circuit can more preciously reflect input characteristics of the OCC PFC converter, and the proposed compensation scheme can reduce the current phase lag, and increase the displacement power factor, which has been verified by experimental results.
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